CN102020209A - Crane and sub-arm mechanism thereof - Google Patents

Abstract

The invention discloses an sub-arm mechanism, comprising a connecting frame (1), a spinner rack (2) and a pulling plate (3), wherein a pin-lift arrangement (4) is connected between the spinner rack (2) and the pulling plate (3); the pin-lift arrangement (4) comprises a support (41) and a connecting rod (42); one end of the support (41) is hinged with the pulling plate (3), and the other end of the support (41) is hinged with the connecting rod (42); one end, which is far away from the support (41), of the connecting rod (42) is hinged with the spinner rack (2); when the pulling plate (3) is turned to a preset maximum work-angle, the second side plate (418) of the support (41) supports the underside of the pulling plate (3); the second side plate (418) is arranged at one side of the support (41), and the one side is close to the hinge point of a first pulling plate (31) and a second pulling plate (32); and the assistant arm mechanism can balance the first pulling plate (31) and the second pulling plate (32) all the time. The invention also discloses a crane comprising the assistant arm mechanism.

Description

A kind of hoisting crane and auxiliary mechanism thereof

Technical field

The present invention relates to technical field of engineering machinery, relate in particular to a kind of auxiliary mechanism that is used for hoisting crane.The invention still further relates to a kind of hoisting crane that comprises above-mentioned auxiliary mechanism.

Background technology

Along with the fast development of China's economic construction, all kinds of heavy constructions increase gradually, and market is also more and more stronger for the demand of all kinds of large-scale engineering machineries.

Hoisting crane is a construction machinery and equipment commonly used in the building operation, is applicable to the lifting operation of building ground, can cut the earth, ram several work such as soil, piling, and hoisting crane is made up of engine installation, operating mechanism and swing arm, turntable, chassis etc.The swing arm of hoisting crane comprises interconnective crane arm and auxiliary mechanism; Auxiliary mechanism is a kind of truss structure that increases the crane job height, and it is installed on the arm head of crane arm, and auxiliary mechanism comprises link span, swivel mount, basic auxiliary and minor details auxiliary etc.

Please refer to Fig. 1 and Fig. 2, Fig. 1 is the structural representation of auxiliary mechanism in the prior art; Fig. 2 is the structural representation of arm-tie among Fig. 1.Briefly introduce this auxiliary mechanism defective in the course of the work below.

As depicted in figs. 1 and 2, this auxiliary mechanism comprise link span 1 ', swivel mount 2 ' and arm-tie 3 ', link span 1 ' be connected with crane arm, swivel mount 2 ' be connected with basic auxiliary, arm-tie 3 ' be connected in link span 1 ' and swivel mount 2 ' between; First arm-tie 31 of arm-tie 3 ' comprise plug-in mounting ' and second arm-tie 32 ', first arm-tie 31 ' and second arm-tie 32 ' be provided with three groups of through holes in the junction, by in different through holes, inserting bearing pin, can regulate arm-tie 3 ' length.

When auxiliary mechanism transfers, swivel mount 2 ' around link span 1 ' clickwise, by regulate arm-tie 3 ' length adjustment swivel mount 2 ' the work corner; When swivel mount 2 ' the work corner reach when reclaiming auxiliary under the maximum operating mode, swivel mount 2 ' around link span 1 ' left-hand revolution, this moment, the pulling force of arm-tie 3 ' born disappeared, arm-tie 3 ' by gravity sinks, and an angle can occur connecting the bearing pin place, first arm-tie 31 that is connected ' with second arm-tie 32 ' no longer parallel, as shown in Figure 2, along with the recovery of auxiliary mechanism, first arm-tie 31 ' meeting with second arm-tie 32 ' the upper sealing plate weld seam tear, cause the accident.

At above-mentioned situation, in the prior art, common dependence is artificial or rely on accessory appliances (for example auxiliary hoist) that arm-tie 3 ' holder is flat, thereby carries out the recovery of basic auxiliary.Yet such operation is wasted time and energy, and easily the staff is caused extruding, lacks safety.

Therefore, how on the basis of existing technology, improve the structure of auxiliary mechanism, make that auxiliary mechanism safety of operation is reliable, and in auxiliary mechanism removal process, it is parallel that first arm-tie and second arm-tie are remained, and is those skilled in the art's urgent problems.

Summary of the invention

The technical problem to be solved in the present invention is for providing a kind of auxiliary mechanism, and this auxiliary mechanism safety of operation is reliable, and can make first arm-tie remain parallel in auxiliary mechanism removal process with second arm-tie.Another technical matters that the present invention will solve is for providing a kind of hoisting crane that comprises above-mentioned auxiliary mechanism.

For solving the problems of the technologies described above, the invention provides a kind of auxiliary mechanism, comprise link span, swivel mount and arm-tie, described arm-tie comprises first arm-tie and second arm-tie that is hinged; Be connected with pin-lift arrangement between described swivel mount and the described arm-tie, described pin-lift arrangement comprises support and connecting rod; Described support one end is articulated in described arm-tie, and the other end is articulated in described connecting rod; Described connecting rod is articulated in described swivel mount away from an end of described support; When described arm-tie moved to predetermined maximum functional corner, second side plate of described support was held the bottom surface of described arm-tie, and described second side plate is positioned at a side of the hinge of close described first arm-tie of described support and described second arm-tie.

Preferably, described connecting rod comprises the first connecting rod that is articulated in described support, the second connecting rod that is articulated in described swivel mount, and the pipe link that connects described first connecting rod and described second connecting rod; Described first connecting rod and described second connecting rod are provided with the opposite outside thread of rotation direction, and described pipe link is provided with the negative thread that cooperates simultaneously with described first connecting rod and described second connecting rod.

Preferably, described pipe link at both ends portion is fixedly connected with two nuts, and described pipe link cooperates with described first connecting rod and described second connecting rod respectively by two described nuts.

Preferably, described support has bending structure, described bending structure comprises first riser and second riser that be arranged in parallel, the both sides of described first riser and described second riser are fixedly connected with first side plate and second side plate respectively, described first riser and described second riser are equipped with two first through holes, and described support is articulated in described arm-tie and described connecting rod respectively by two bearing pins that are plugged in two described first through holes.

Preferably, described support is equipped with the fixed part that is used to limit bearing pin in the outer end of described bearing pin.

Preferably, described fixed part is specially baffle plate; Described bearing pin is provided with the bearing pin cap being positioned at the exterior outer end of described support, described bearing pin cap is circle and lacks type and its radius greater than the described first through hole radius, described baffle plate is fixedly connected on the lateral wall of described support, and the sidewall of described baffle plate fits in the straight sides of described bearing pin cap.

Preferably, described baffle plate is removably connected to the lateral wall of described support by bolt, and also is provided with packing ring between described bolt and the described baffle plate.

Auxiliary provided by the present invention mechanism is connected with pin-lift arrangement between swivel mount and arm-tie, pin-lift arrangement comprises support and connecting rod; Support one end is articulated in arm-tie, and the other end of support is articulated in connecting rod, and connecting rod is articulated in swivel mount away from an end of support; When arm-tie moves to the maximum functional corner by desired trajectory, a bottom surface that arm-tie is held in the side of support.

In the working process, arm-tie, swivel mount, support and connecting rod constitute four-bar motion mechanism, when auxiliary mechanism transfers, are plugged in the different through holes by the bearing pin of regulating on the arm-tie, thereby auxiliary mechanism carries out varied angle transfers, and support rotates with the variation of the length of arm-tie; Credit is analysed and is calculated through accurate movement, when the arm-tie operation reaches predetermined maximum functional corner, when needing to reclaim auxiliary mechanism, a parallel sided of support is in the bottom surface of arm-tie and the bottom surface of holding this arm-tie, make in auxiliary mechanism removal process, it is parallel that first arm-tie and second arm-tie remain, and avoided because junction angle of arrival in the auxiliary removal process of first arm-tie and second arm-tie, thereby caused the phenomenon that first arm-tie is torn the upper sealing plate weld seam of second arm-tie.

This shows, the auxiliary mechanism of said structure, safety of operation is reliable, and remains parallelly in auxiliary mechanism removal process at first arm-tie and second arm-tie, has strengthened the functional reliability of auxiliary mechanism.

The present invention also provides a kind of hoisting crane, comprises crane arm; Described hoisting crane comprises above-mentioned auxiliary mechanism, and described auxiliary mechanism is removably connected to described crane arm.

Because above-mentioned auxiliary mechanism has above-mentioned technique effect, therefore, comprises that the hoisting crane of this auxiliary mechanism also should have identical technique effect, does not repeat them here.

Description of drawings

Fig. 1 is the structural representation of auxiliary mechanism in the prior art;

Fig. 2 is the structural representation of the arm-tie among Fig. 1;

Fig. 3 is the structural representation of auxiliary provided by the present invention mechanism;

Fig. 4 is the partial enlarged drawing of the pin-lift arrangement among Fig. 3;

Fig. 5 is the structural representation of first kind of specific embodiment of the connecting rod among Fig. 3;

Fig. 6 is the structural representation of second kind of specific embodiment of the connecting rod among Fig. 3;

Fig. 7 is the perspective view of the support of the pin-lift arrangement among Fig. 3;

Fig. 8 is the plan front view of Fig. 7;

Fig. 9 is the parts exploded drawings of the pin-lift arrangement among Fig. 3.

Wherein, the corresponding relation between Reference numeral and the component names is among Fig. 1 to Fig. 2:

1 ' link span; 2 ' swivel mount; 3 ' arm-tie; 31 ' the first arm-ties; 32 ' the second arm-ties;

Corresponding relation among Fig. 3 to Fig. 9 between Reference numeral and the component names is:

1 link span; 2 swivel mounts; 3 arm-ties; 4 pin-lift arrangements; 41 supports; 42 connecting rods; 43 bearing pins; 411 first through holes; 412 fixed parts; 413 bolts; 414 packing rings; 415 first risers; 416 second risers; 417 first side plates; 418 second side plates; 419 gussets; 421 first connecting rods; 422 second connecting rods; 423 pipe links; 424 nuts; 431 bearing pin caps.

The specific embodiment

Core of the present invention is for providing a kind of auxiliary mechanism, and this auxiliary mechanism safety of operation is reliable, and can make first arm-tie remain parallel in auxiliary mechanism removal process with second arm-tie.Another core of the present invention is for providing a kind of hoisting crane that comprises above-mentioned auxiliary mechanism.

In order to make those skilled in the art understand technical scheme of the present invention better, the present invention is described in further detail below in conjunction with the drawings and specific embodiments.

Please refer to Fig. 3 and Fig. 4, Fig. 3 is the structural representation of auxiliary provided by the present invention mechanism; Fig. 4 is the partial enlarged drawing of the pin-lift arrangement among Fig. 3.

In a kind of concrete embodiment, as shown in Figure 3 and Figure 4, the invention provides a kind of auxiliary mechanism, comprise link span 1, swivel mount 2, arm-tie 3 and pin-lift arrangement 4.Link span 1 is connected with the crane arm of hoisting crane, and swivel mount 2 is connected with the basic auxiliary of hoisting crane, and arm-tie 3 is connected between link span 1 and the swivel mount 2; Arm-tie 3 comprises that first arm-tie 31 that is hinged and second arm-tie, 32, the first arm-ties 31 and second arm-tie 32 are provided with three groups of through holes in the junction, by insert bearing pin in different through holes, can regulate the length of arm-tie 3; Pin-lift arrangement 4 is connected between swivel mount 2 and the arm-tie 3, and pin-lift arrangement 4 comprises support 41 and connecting rod 42; One end of support 41 is articulated in arm-tie 3, and the other end of support 41 is articulated in connecting rod 42, and connecting rod 42 is articulated in swivel mount 2 away from an end of support 41; When arm-tie 3 moves to predetermined maximum functional corner, the bottom surface that arm-tie 3 is held in second side 418 of support 41, second side plate (418) is positioned at the side near the hinge of first arm-tie 31 and second arm-tie 32 of support 41.

In the working process, arm-tie 3, swivel mount 2, support 41 and connecting rod 42 constitute four-bar motion mechanism, when auxiliary mechanism transfers, are plugged in the different through holes by the bearing pin of regulating on the arm-tie 3, auxiliary mechanism carries out varied angle transfers, and support 41 rotates with the variation of the length of arm-tie 3; Credit is analysed and is calculated through accurate movement, when arm-tie 3 operations reach predetermined maximum functional corner, when needing to reclaim auxiliary mechanism, the bottom surface that second side 418 of support 41 is parallel to the bottom surface of arm-tie 3 and holds this arm-tie 3, and this second side plate 418 is positioned at the side near the hinge of first arm-tie 31 and second arm-tie 32 of support 41.This makes that first arm-tie 31 remains parallel with second arm-tie 32 in auxiliary mechanism removal process, avoided junction angle of arrival in the auxiliary removal process, thereby caused the phenomenon that first arm-tie 31 is torn the upper sealing plate weld seam of second arm-tie 32 owing to first arm-tie 31 and second arm-tie 32.

This shows, the auxiliary mechanism of said structure, safety of operation is reliable, and it is parallel that first arm-tie 31 and second arm-tie 32 are remained in auxiliary mechanism removal process, strengthened the functional reliability of auxiliary mechanism.

Need to prove that this paper said " work corner " refers to the angle between arm-tie 3 and the horizontal surface.The above-mentioned specific embodiment does not limit the specific constructive form and the concrete connection mode of pin-lift arrangement 4 medium-height trestles 41 and connecting rod 42; in fact; no matter which kind of structure support 41 and connecting rod 42 adopt; every support 41 and connecting rod 42 of comprising; and when arm-tie 3 moves to predetermined maximum functional corner; second side plate 418 of support 41 is held the auxiliary mechanism of the bottom surface of arm-tie 3, all should work as to belong in protection scope of the present invention.

The concrete structure of the connecting rod 42 of above-mentioned pin-lift arrangement 4 can also further be set.

Please refer to Fig. 5, Fig. 5 is the structural representation of first kind of specific embodiment of the connecting rod among Fig. 3.

In a kind of concrete embodiment, connecting rod 42 can comprise the first connecting rod 421 that is articulated in support 41, the second connecting rod 422 that is articulated in swivel mount 2, and the pipe link 423 that connects first connecting rod 421 and second connecting rod 422; First connecting rod 421 and second connecting rod 422 offer the opposite outside thread of rotation direction, and pipe link 423 offers the negative thread that cooperates simultaneously with first connecting rod 421 and second connecting rod 422.

Adopt this structure, pipe link 423 is threaded simultaneously with first connecting rod 421, second connecting rod 422, rotation by pipe link 423 relative first connecting rods 421 and second connecting rod 422, can regulate the total length of connecting rod 42, thereby effectively remedy manufacturing errors, when the work corner that can guarantee arm-tie 3 reaches maximum, has certain clearance between support 41 and the arm-tie 3, avoid in the lift heavy process, being damaged by pressure by arm-tie 3, can guarantee again simultaneously can play when auxiliary mechanism reclaims and hold arm-tie 3, keep the effect parallel of first arm-tie 31 with second arm-tie 32.

Above-mentioned connecting rod 42 can also adopt other version, please refer to Fig. 6, and Fig. 6 is the structural representation of second kind of specific embodiment of the connecting rod among Fig. 3.

In the concrete embodiment of another kind, as shown in Figure 6, above-mentioned pipe link 423 can at both ends portion be fixedly connected with two nuts 424, and pipe link 423 is connected with first connecting rod 421, second connecting rod 422 respectively by two nuts 424.Because the difficult processing of the negative thread deep hole of stock, adopt nut 424 to replace the negative thread of pipe link 423, can reach the purpose of regulating connecting rod 42 overall length equally, and make the processing of pipe link 423 simple, easily manufactured, the tooling cost of further having saved pin-lift arrangement 4.

The concrete structure of above-mentioned support 41 can also further be set.

Please refer to Fig. 7 and Fig. 8, Fig. 7 is the structural representation of the support of the pin-lift arrangement among Fig. 3; Fig. 8 is the plan front view of Fig. 7.

Further in the scheme, as shown in Figure 7 and Figure 8, above-mentioned support 41 can have bending structure, this bending structure comprises first riser 415 and first riser 416 that be arranged in parallel, the both sides of first riser 415 and first riser 416 are fixedly connected with first side plate 417 and second side plate 418 respectively, first riser 415 and first riser 416 are equipped with two first through holes 411, and in conjunction with Fig. 4, support 41 is articulated in arm-tie 3 and connecting rod 42 respectively by two bearing pins 43 that are plugged in two first through holes 411.

Adopt such structure, support 41 can be realized hinged with arm-tie 3 and connecting rod 42, when arm-tie 3 is in the maximum functional corner, and the bottom surface that makes second side plate 418 hold arm-tie 3, and this is simple in structure, has the advantage of convenient processing and manufacture.Certainly, support 41 provided by the present invention is not limited in this shape, can also be other shapes, for example above-mentioned support 41 can also comprise gusset 419, gusset 419 is connected in second side plate 418, first riser 415 and second riser 416 simultaneously, can increase the intensity of support 41, prevent support 41 because insufficient strength is damaged by pressure by arm-tie 3.

The concrete articulated form of above-mentioned support 41 and arm-tie 3 and connecting rod 42 can also further be set.

Please refer to Fig. 9, Fig. 9 is the parts exploded drawings of the pin-lift arrangement among Fig. 3.

In the concrete embodiment of another kind, as shown in Figure 9, support 41 is equipped with the fixed part 412 that is used to limit bearing pin 43 in the outer end of bearing pin 43.For example, this fixed part 412 can be specially baffle plate; Bearing pin 43 is provided with bearing pin cap 431 being positioned at support 41 exterior outer ends, and bearing pin cap 431 is circle and lacks type and its radius greater than the through hole radius, and baffle plate is fixedly connected on the lateral wall of support 41, and the sidewall of baffle plate fits in the straight sides of bearing pin cap 431.

Adopt this structure, use the bigger bearing pin cap 431 of cross-sectional plane and the mode of baffle plate combination bearing pin 43 can be limited in first through hole 411, make that support 41 and arm-tie 3, support 41 and connecting rod 42 are hinged well, prevent that bearing pin 43 from coming off, and guaranteed the functional reliability of pin-lift arrangement 4 from first through hole 411.

Particularly, above-mentioned baffle plate can be removably connected to the lateral wall of support 41 by bolt 413, and also is provided with packing ring 414 between bolt 413 and the baffle plate.Packing ring 414 is set between bolt 413 and baffle plate, mainly is in order to reduce the wearing and tearing of bolt 413 and baffle plate, to play the effect of protection bolt 413 and baffle plate.

Certainly, said fixing portion 412 is not limited in baffle plate, can also be miscellaneous part.For example, fixed part 412 can also be specially Spring Card; Bearing pin 43 can be provided with second through hole being positioned at support 41 exterior two outer ends, all is fitted with Spring Card in two second through holes.Spring Card comprises straight-bar and the knee that is connected, and straight-bar runs through second through hole, and knee makes bearing pin 43 can not come off from first through hole 411 at the second through hole outer most surrounding bearing pin 43, thereby has guaranteed the functional reliability of pin-lift arrangement 4.

The present invention also provides a kind of hoisting crane, comprises crane arm; Hoisting crane comprises above-mentioned auxiliary mechanism, and auxiliary mechanism is removably connected to the crane arm of hoisting crane.

Because above-mentioned auxiliary mechanism has above-mentioned technique effect, therefore, comprises that the hoisting crane of this auxiliary mechanism also should have identical technique effect, does not repeat them here.

More than a kind of hoisting crane provided by the present invention and auxiliary mechanism thereof are described in detail.Used specific case herein principle of the present invention and embodiment are set forth, the explanation of above embodiment just is used for helping to understand method of the present invention and core concept thereof.Should be pointed out that for those skilled in the art, under the prerequisite that does not break away from the principle of the invention, can also carry out some improvement and modification to the present invention, these improvement and modification also fall in the protection domain of claim of the present invention.

Claims (8)

1. an auxiliary mechanism comprises link span (1), swivel mount (2) and arm-tie (3), and described arm-tie (3) comprises first arm-tie (31) and second arm-tie (32) that is hinged; It is characterized in that be connected with pin-lift arrangement (4) between described swivel mount (2) and the described arm-tie (3), described pin-lift arrangement (4) comprises support (41) and connecting rod (42); Described support (41) one ends are articulated in described arm-tie (3), and the other end is articulated in described connecting rod (42); Described connecting rod (42) is articulated in described swivel mount (2) away from an end of described support (41); When described arm-tie (3) moves to predetermined maximum functional corner, second side plate (418) of described support (41) is held the bottom surface of described arm-tie (3), and described second side plate (418) is positioned at a side of the hinge of close described first arm-tie (31) of described support (41) and described second arm-tie (32).

2. auxiliary according to claim 1 mechanism, it is characterized in that, described connecting rod (42) comprises the first connecting rod (421) that is articulated in described support (41), the second connecting rod (422) that is articulated in described swivel mount (2), and the pipe link (423) that connects described first connecting rod (421) and described second connecting rod (422); Described first connecting rod (421) and described second connecting rod (422) are provided with the opposite outside thread of rotation direction, and described pipe link (423) is provided with the negative thread that cooperates simultaneously with described first connecting rod (421) and described second connecting rod (422).

3. auxiliary according to claim 2 mechanism, it is characterized in that, described pipe link (423) at both ends portion is fixedly connected with two nuts (424), and described pipe link (423) cooperates with described first connecting rod (421) and described second connecting rod (422) respectively by two described nuts (424).

4. according to each described auxiliary mechanism of claim 1-3, it is characterized in that, described support (41) has bending structure, described bending structure comprises first riser (415) and second riser (416) that be arranged in parallel, the both sides of described first riser (415) and described second riser (416) are fixedly connected with first side plate (417) and second side plate (418) respectively, described first riser (415) and described second riser (416) are equipped with two first through holes (411), and described support (41) is articulated in described arm-tie (3) and described connecting rod (42) respectively by two bearing pins (43) that are plugged in two described first through holes (411).

5. auxiliary according to claim 4 mechanism is characterized in that described support (41) is equipped with the fixed part (412) that is used to limit bearing pin (43) in the outer end of described bearing pin (43).

6. auxiliary according to claim 5 mechanism is characterized in that described fixed part (412) is specially baffle plate; Described bearing pin (43) is provided with bearing pin cap (431) being positioned at the exterior outer end of described support (41), described bearing pin cap (431) is circle and lacks type and its radius greater than described first through hole (411) radius, described baffle plate is fixedly connected on the lateral wall of described support (41), and the sidewall of described baffle plate fits in the straight sides of described bearing pin cap (431).

7. auxiliary according to claim 6 mechanism is characterized in that described baffle plate is removably connected to the lateral wall of described support (41) by bolt (413), and also is provided with packing ring (414) between described bolt (413) and the described baffle plate.

8. a hoisting crane comprises crane arm; It is characterized in that described hoisting crane comprises each described auxiliary mechanism as claim 1-7, described auxiliary mechanism is removably connected to described crane arm.

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